A Dynamic Framework for Healthcare Monitoring using Wireless Sensor Network
DOI:
https://doi.org/10.26438/ijcse/v7i6.928932Keywords:
ZigBee, ECG, Sensor Network, NoSQL, IoT, Bluetooth, Wi-FiAbstract
The communication technology is growing day by day to provide instant and enhanced medical facilities to patients regardless of their physical location. Patients can be monitored and provided with quick medication while they are on the move. The existing technology is also capable to provide self-monitoring. Self-monitoring means people can use wireless technology to monitor their health at home on daily basis. The existing system provides home based ECG monitoring that reads physiological data and then convert them into readable format. Internet of Things (IOT) is new era of telecommunication that provides smart communication between human and sensor devices through various wireless technologies such as Wi-Fi, RFID, Bluetooth and ZigBee. Our proposed dynamic framework facilitates people to connect and communicate with healthcare centres in dynamic way while they are moving out of their home location. Secondly, the proposed system also make use of advance data management technique known as NoSQL especially used for un-structured datasets generated through ECG, SCG and other vital parameters of human body with the help of sensor networks. The paper is organised into sections viz. introduction, existing work, use of IoTs in wireless healthcare monitoring systems, proposed system, implementation and conclusion.
References
[1]. Uttara Gogate, Manali Marathe, Jay, Mourya, Nipunaya Mohan, “Android Based Health Monitoring System for cardiac Patients”, International Research Journal of Engineering and Technology(IRJET),Vol:04,Issue:04,2017,ISSn:2395-0072,pp:-1628-1634
[2]. Dey,N.,Ashour,A.S,Shi,F.,Fong,S.J,Sherratt,R.S,”Developing residential wireless sensor networks for ECG healthcare Monitoring”,IEEE Transactions on Consumer Electronics,63(4).pp.442-449.ISSN 0098-3063.
[3]. Uttara Gogate,Jagdish Bakal,”Healthcare monitoring System Based on Wireless Sensor Network for Cardiac Patients”,Biomedical & Pharamacology Journal,Sep 2018,Vol.11(3),pp.1681-1688
[4]. Zeinab Kamal, Aldein Mohammed, Elmustafa Sayed Ali Ahmed, “Internet of Things Applications, Challenges and Related Future Technologies”, www.worldscienticnews.com,67(2)(2017), pp.126-148
[5]. Mohamed Elgendi,Abdulla AL-Ali,Amr Mahamed,Rabab Ward,” Improving Remote Health Monitoring: A Low Complexity ECG Compression Approach”, MDPI, Diagnostics 2018,8,doi:10.3390/diagnostics8010010
[6]. Prasan Kumar Sahoo, Hiren kumar Thakkar, Wen-Yen Lin, Po-Cheng Chang,Ming Yih lee, “On the design of Efficient Cardiac Health Monitoring System Through Combined Analysis of ECG and SCG signals”, MDPI, Sensors 2018,18,379;doi:10.3390/s18020379
[7]. Dr. Archana Raje, Aniket Jgadale, ”Sql Vs NoSql: NewSql The solution for Big Data”, 4th-SICTIM’2018, IOSR journal of Computer Enginnering (IOSR-JCE), e-ISSN: 2278-0661, pp.45-51
[8]. Nancy Fernando E, “A Survey on Android Based Patient Monitoring system” GRD Journals, Global Research and Development Journal
for Engineering, International Conference on Innovations in engineering and Technology (ICIET) – 2016, July 2016 e-ISSN: 2455-5703
[9]. Nidhi Mutha1, “Patient Health Monitoring Using Android Application”
International Journal of Innovative Research in Computer And Communication Engineering Vol. 4, Issue 3, March 2016
[10]. Rajesh Naidu, D. Bindu, Asha Jyothi , G.Roshini, “Android Based Healthcare Monitoring System”. International Journal of Advance Foundation and Research in Computer (IJAFRC) Volume 2, Special Issue (NCRTIT 2015), January 2015. ISSN 2348 – 4853
[11]. N. Ebrahim, M. J. Deen and T. Mondal, “A wireless wearable ECG sensor for long-term applications,” IEEE
Commun. Mag., vol. 50, no. 1, pp. 36–43, Jan. 2012.
[12]. T. K. L. Hui, R. S. Sherratt and D. Diaz Sanchez, “Major requirements for building Smart Homes in Smart
Cities based on Internet of Things technologies,” Future Generation Computer Systems, vol. 76, pp. 358–369,
Nov. 2017.
[13]. A. Pantelopoulos and N. G. Bourbakis, “A survey on wearable sensor-based systems for health monitoring and
prognosis,” IEEE Trans. Syst. Man, Cybern. B., vol. 40, no. 1, pp. 1–12, Jan. 2010.
[14]. M. A. Ezechina, K. K. Okwara, C. A. U. Ugboaja. “The Internet of Things (Iot): A Scalable Approach to Connecting Everything.” The International Journal of Engineering
and Science 4(1) (2015) 09-12.
[15]. Sapandeep Kaur, Ikvinderpal Singh. “A Survey Report on Internet of Things Applications,” International Journal of Computer Science Trends and Technology Volume 4, Issue 2, Mar - Apr 2016.
[16]. Suwimon Vongsingthong and Sucha Smanchat. A Review of Data Management in Internet of Things. KKU Res. J. 2015
[17]. Alwan, A. Global Status Report on Noncommunicable Diseases 2010; World Health Organization: Geneva,
Switzerland, 2011.
[18]. Elgendi, M.; Eskofier, B.; Dokos, S.; Abbott, D. Revisiting QRS Detection Methodologies for Portable,
Wearable, Battery-Operated, and Wireless ECG Systems. PLoS ONE 2014, 9, 1–18.
[19]. P. Frehill, D. Chambers and C. Rotariu, “Using zigbee to integrate medical devices,” in Proc. EMBC, 2007,
pp. 6171–6720.
[20]. L.-H. Wang, Y.-M. Hsiao, X.-Q. Xie and S.-Y. Lee, “An Outdoor Intelligent Healthcare Monitoring Device
for the Elderly,” IEEE Trans. Consum. Electron., vol. 62, no. 2, pp. 128–135, May 2016.
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